US2792716A - Automatic transmission for vehicles - Google Patents

Description

May 21, 1957 H. w. CHRISTENSON 2,792,716

AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 13, 1951 13 Sheets-Sheet 1 Smaentor 0 E attorney May 21, 1957 H. w. CHRISTENSON AUTOMATIC TRANSMISSION FOR VEHICLES l3 Sheets-Sheet 2 Filed April 15. 1951 lnnentor attorney May 21, 1957 H. w. CHRISTENSON AUTOMATIC TRANSMISSION FOR VEHICLES 13 Sheets-Sheet 5 Filed April 13, 1951 3 n we n tor $1.4m? Wary/ 21%? May 21, 1957 H. w. CHRISTENSON 2,792,716

AUTOMATIC TRANSMISSION FOR VEHICLES Filed April ;s, 1951 13 Sheets-Sheet 4 3noentor attorney! y 21, 1957 H. w. CHRISTENSON 2,792,716

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AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 13, 1951 13 Sheets-Sheet 6 i 1 0 L I? M 247923: BRA KE (/10) l'mvcutor C(ltomegw May 21, 1957 H. w. CHRISTENSON AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 13, 1951 13 Sheets-Sheet '7 [On/BRAKE Win 0mm b u L' k 22/ PZ'VIRSZ' BRAK (#6) Bnventor attorneys May 21, 1957 Filed April 13, 1951 H. W. CHRISTENSON AUTOMATIC TRANSMISSION FOR VEHICLES 13 Sheets-Sheet 8 zawamx:

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attorneys May 21, 1957 H. w. CHRISTENSON 2,792,716

AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 15, 1951 1:5 Sheets$heet 10 3nventor May 21, 1957 H. w. CHRISTENSON 2,792,716

AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 15, 1951 13 Sheets-Sheet ll mam/r5645) Jul/mam (/3) r0 Com/mm? Enventor (Ittomegs May 21, 1957 H w. CHRISTEN\SON 2,792,715

AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 13, 1951 13 Sheets-Sheet 12 M01 awn/(13) (Ittomegs May 21, 1957 H. w. CHRISTENSON 2,792,716

AUTOMATIC TRANSMISSION FOR VEHICLES Filed April 13, 1951 13 Sheets-Sheet 13 10k BRAKE 3nventor (Ittomegs United States Patent 2,792,716 AUTOMATIC TRANSMISSION FOR VEHICLES Howard W. Christenson, Plainfield, Ind., assignor to General Motors Corporation, Detroit, Mich., a corporation of Delaware Application April 13, 1951, Serial No. 220,902 51 Claims. (Cl. 74-472) This invention relates to power transmission mecha nism and particularly to an improved transmission adapted for use in motor vehicles.

An object of this invention is to combine mechanical and hydraulic features to provide an improved transmis- SlOn.

A further object of the invention is to provide a transmission which obtains the benefits of smooth starting and rapid acceleration provided by a hydraulic torque converter, and which also obtains the benefits of high gasoline economy and the solid feel which is provided by a gearless direct drive.

Another object of the invention is to provide an improved transmission which is arranged so that only one shift occurs in the transmission gear ratios during acceleration from a standstill to full direct drive.

A further object of the invention is to provide an improved transmission of the type described which is arranged so that a centrifugal governor is not required.

Another object of the invention is to provide a transmission employing an engine driven pump and an output shaft driven pump, the transmission being arranged so that during normal operation the liquid supplied by the output shaft driven pump is employed only to indicate the speed of the output shaft, thereby insuring that this speed will be indicated accurately by liquid supplied by this pump and permitting the output shaft pump to be of small size so that little power is consumed in driving the pump.

A further object of the invention is to provide an improved transmission of the type described which is arranged so that liquid under pressure supplied by the output shaft driven pump is available for operation of elements of the transmission during periods in which the vehicle is being pushed or towed for the purpose of starting the vehicle engine.

Another object of the invention is to provide an improved transmission of the type described which i arranged so that when the vehicle is being towed or pushed for the purpose of starting the vehicle engine, a relatively high pressure is developed at relatively low vehicle speeds on the liquid supplied by the output shaft driven pump so that an effective driving connection is established from the output shaft through the transmission to the engine at relatively low vehicle speeds and the vehicle engine can be started readily.

A further object of the invention is to provide an improved transmission of the type described which is arranged to insure that when the vehicle is being towed or pushed for the purpose of starting the vehicle engine, the direct drive clutch will remain engaged until the engine starts.

Another object of the invention is to provide an improved transmission having friction drive-establishing members which respectively provide low speed drive and high speed or direct drive in which the drive-establishing members are so arranged that the direct drive member (ordinarily a clutch) will at least be partially engaged 2,792,716 Patented May 21, 1957 before the low speed drive-establishing member (ordinarily a brake) is released so that a load is continuously maintained on the engine during this change in the transmission gear ratios, and the engine speed will not increase objectionably, but so that because of the increased load on the engine as a result of engagement of the direct drive clutch, the engine speed will decrease somewhat so as to correspond with the vehicle speed, with the transmission in direct drive, and thereby insure that the shift to direct drive is smooth and gradual.

A further object of the invention is to provide an improved transmission of the type described which is arranged so that the degree of overlap of the low and high speed drive-establishing devices, in shifting from low to high speed, varies in accordance with the position of the vehicle throttle, and therefore in accordance with the torque transmitted through the transmission.

Another object of the invention is to provide an improved transmission of the type described which is arranged so that during changes between low gear and direct drive there is an overlap in the engagement of the low gear and direct drive establishing devices, and so that the operation of the equipment is different in changing from low gear to direct drive than in changing from direct drive to low gear.

A still further object of the invention is to provide an improved transmission of the type described which is arranged so that during shifting of the transmission from direct drive to drive through a gear reduction, the direct drive clutch will become partially released to a predetermined degree before the drive-establishing device controlling governing the reduction gears become effectively engaged with the result that during a brief interval there is a reduction in the load on the vehicle engine during which the speed of the engine will increase to drive-establishing more nearly correspond with the vehicle speed upon complete engagement of the device controlling governing the reduction gears, and the shift from direct drive to drive through the reduction gears will take place smoothly.

Another object of the invention is to provide an improved transmission which is arranged so that the drive establishing devices employed therein are operated by liquid at relatively low pressure so that a minimum of power is consumed in driving the pumps which supply the liquid under pressure.

A further object of the invention is to provide an improved transmission which is arranged so that the direct drive clutch is engaged during most of the time the vehicle is being operated, and so that the pressure of the liquid required to operate the direct drive clutch is the minimum value.

Another object of the invention is to provide an improved transmission which is arranged so that the pressure of the liquid employed to operate the drive-establishing devices employed therein is varied in accordance with the throttle opening and the speed of the vehicle, and is also varied in accordanec with the torque requirements of transmission as determined by the gear ratio being used.

A further object of the invention is to provide a transmission in which the valve controlled by the position of the throttle is provided with a hydraulic detent for indicating to the operator when the throttle has been moved towards the full open position to the point beyond which movement of the throttle and the associated transmission valve may result in shifting of the transmission to a lower driving ratio.

Another object of the invention is to provide a transmission in which drive through helical reduction gears is effected by engagement of a cone brake in which the engaging force of the stationary and movable brake memhers is augmented by axail thrust developed by the gears during transmission of power through them.

A further object of the invention is to provide a transmission in which both forward and reverse drive through reduction gears is controlled by hydraulically operated cone device which are simple and inexpensive to construct and assemble, and which do not require adjustment or attention because of wear during use.

Another object of the invention is to provide a transmission in which both forward and reverse drive through reduction gears is controlled by devices which are constructed so that wear on the engaging surfaces of the devices is automatically taken up by the hydraulic operating means.

A further object of the invention is to provide a trans mission in which the gear reduction in both forward and reverse is provided by a planetary gear set which i of simple rugged design.

Another object of the invention is to provide an improved hydraulically controlled transmission of the type described which is arranged so that all forces exerted on the hydraulically operated elements are exerted concentrically of the axis of the transmission elements.

A further object of the invention is to provide an improved transmission of the type described which incorporates improved means for insuring prompt discharge of liquid from the operating chamber of an expansible chamber motor which operates a friction drive-establishing device.

Another object of the invention is to provide an improved transmission of the type described which is arranged so that a limited quantity of air is retained in an operating chamber of an expansible chamber motor during engagement of a friction drive-establishing device operated by such motor so that the friction drive device engages gradually and without shock.

A further object of the invention is to provide an improved manually controlled automatic transmission, the manual control being arranged to insure manual overcontrol of the transmission irrespective of failure of operation of the automatic governor controlled valves effecting automatic control of the transmission.

Another object of the invention is to provide a transmission of the type described and employing a planetary gear set having a driving member in the form of a drum with two internal gears on the inner face thereof, together with two carriers supporting planet gears meshing with the internal gears and with the teeth of two sun gears formed on a single member.

A further object of the invention is to provide a planetary transmission of the type described and which is arranged so that the carriers thereof are rigidly supported and accurately position the associated planet gears.

Another object of the invention is to provide a transmission of the type described which includes means for supplying lubricant under pressure to the area within the drum to lubricate the transmission gears.

A further object of the invention is to provide a transmission of the type described which is arranged so that when the engine is driving the vehicle, lubricant may freely escape from the area within the drum, and so that when the vehicle is driving the engine, escape of lubricant from the area within the drum is restricted so that the pressure on the lubricant within the drum increases, and so that, in addition, the quantity of liquid within the drum is substantially increased, with the result that this lubri' cant resists rotation of the gears and carriers within the drum to thereby materially increase the braking etfect on the vehicle.

Another object of the invention is to provide a transmission having a planetary gear set including a reaction member which is locked to the transmission housing to provide reverse drive by a cone brake having inner and outer engaging surfaces and operated by a hydraulic piston.

A further object of the invention is to provide a trans mission of the type described and in which the piston associated with the reverse cone means exerts force thereon through lever mechanism which multiplies the force exerted by the piston.

Another object of the invention is to provide a transmission of the type described and in which the lever mechanism associated with the reverse operating piston is in the form of a Belleville washer which, on release of liquid under pressure from the chamber at the face of the riston, serves to restore the piston to the released position and to disengage elements of the reverse mechanism.

A further object of the invention is to provide a trans mission of the type described which is arranged so that when force is transmitted through the planetary gears to drive the vehicle in the forward direction the reverse control device is certain to be disengaged, and so that when force is transmitted through the planetary gears to drive the vehicle in the reverse direction the low forward control device is certain to be disengaged.

Another object of the invention is to provide a transmission of the type described which has an output shaft extending throughout the entire length of the transmission and supported adjacent each end from the transmission housing, the output shaft serving as the support for elements of the planetary gearing.

A further object of the invention is to provide a transmission which is arranged so that the housing is of simple. rugged design, and in which the principal machine work is on circular faces having a common axis.

Another object of the invention is to provide an improved transmission of the type described which is arranged so that the planetary gear mechanism can be substantially completely assembled and thereafter installed in the housing as a unit.

A further object of the invention is to provide a llttlls mission of the type described which incorporates a single plate direct drive clutch of improved construction which has an operating piston with a large effective area.

Another object of the invention is to provide a trans mission of the type described in which the direct drive clutch is of such design that the entire clutch can be assembled as a unit and thereafter installed in the remainder of the transmission.

A further object of the invention is to provide a trans mission of the type described in which the direct drive clutch piston is subject to the opposing pressures of the liquid in an operating chamber and of the liquid in the torque converter and in which the supply of liquid to the torque converter is cut 01f and the torque converter chamber is connected to the sump at the same time that the supply of fluid to the operating chamber of the direct drive clutch is initiated to thereby facilitate engagement of the direct drive clutch, to reduce the pressure required to operate this clutch. and to balance the centrifugal oil pressures on both sides of the actuating piston.

A further object of the invention is to provide an improved transmission of the type described which is controlled by levers Which can be constructed and assembled readily and economically.

Another object of the type described is to provide an improved transmission which includes a parking brake for locking the output shaft, and which is arranged so that the lever for operating the transmission control valve also operates the parking lock or brake, while the elements of the parking lock or brake serve as a detent to designate the various operating positions of the control valve.

A further object of the invention is to provide an improved transmission incorporating a first fluid pressure operated device for establishing a slow speed drive through the transmission and a second fluid pressure operated device for establishing a faster speed drive through the transmission, together with valve means operative on an increase in the pressure of the fluid in said second device for releasing fluid under pressure from said first device.

Another object of the invention is to provide an improved automatic transmission having a control valve member manually movable from a neutral position to a first drive or a second drive position, the valve member being effective when in the first drive position to supply fluid under pressure to a device to establish slow speed drive through the transmission and being effective when in the second drive position to cause the supply of fluid under pressure to said device to be controlled by means responsive to the speed of the vehicle, the transmission including means for causing the fluid supply to said device to be at a first pressure or at a substantially lower pressure according as said valve member is in its first or its second drive position.

A further object of the invention is to provide an improved automatic transmission incorporating a fluid pressure operated device for establishing drive through helical transmission gears which operate to increase or to decrease the force available to effect engagement of the device according as torque is transmitted through the associated gears from the engine or to the engine, the transmission including means for causing the pressure of the fluid supplied to the device to be at a relatively high value during periods in which operating conditions are such that torque may be transmitted through the associated gears to the engine.

Other objects of the invention and features of novelty will be apparent from the following description taken in connection with the accompanying drawings in which:

Figures in and lb, when placed together with Figure lb at the right, form a longitudinal sectional view of a transmission embodying this invention.

Figure 2 is a fragmentary rear elevational view of the transmission shown in Figures la and lb, parts being broken away and shown in section to more clearly show other parts.

Figure 3 is a fragmentary sectional view taken substantially along the line 3-3 on Figure lb, with parts broken away and shown in section to more clearly show other parts.

Figure 4 is a fragmentary sectional view taken substantially along the line 44 of Figure 11).

Figure stantially along the line S5 on Figure 3.

Figure 6 is a fragmentary sectional view taken substantially along the line 66 on Figure 3.

Figures 7 and S are fragmentary enlarged elevational views showing details of the control levers.

Figure 9 is a fragmentary sectional view showing a modified form of low range control device cone which i may employ.

Figure 10 is a fragmentary sectional view taken substantially along the line l010 on Figure 9.

Figure It is a fragmentary sectional view taken on line 1111 of Figure 10.

Figure 12 is a fragmentary elevational view showing the transmission installed in a vehicle.

Figure 13 is a diagram showing the control valves for the transmission, the elements of the control valves being shown in the positions which they assume when the vehicle and the vehicle engine are at rest, the accelerator is releases. and the manual control valve is in the neutral position.

Figures 14 to 21 are a series of diagrams of the transmission control valves showing the valve elements in the positions which they assume under different operating conditions.

In practicing my invention 1 provide a transmission including a torque converter which has an input member adapted to be driven from a vehicle engine and which has an output member adapted to drive the input element of a planetary gear unit, while the output ele- 5 is a fragmentary sectional view taken submeat of the planetary gear unit is secured to the trans mission output shaft. The planetary gear unit includes two planetary gear sets and is hydraulically controlled to provide neutral, low speed forward, and reverse. The transmission also includes a hydraulically operated direct drive clutch which when engaged connects the engine directly to the transmission output shaft. The input member of the planetary gear unit is ,in the form of a drum having on its inner face the teeth of two ring gears while the sun gears of both planetary gear sets are formed on a tubular sun gear unit surrounding the output shaft. The planetary gear unit includes two carriers, each of which carries planet gears meshing with a sun gear and a ring gear. One of these carriers is secured on the output shaft. while the other carrier is adapted to at times be locked to the transmission housing by one of the drive-establishing devices to cause the output shaft to be driven in the reverse direction. The sun gear unit it adapted at times to be locked to the transmission housing by another or second drive-establishing device to cause the output shaft to be driven in the forward direction at reduced speed. The gears of the planetary gear sets have helical teeth and are arranged so that when the vehicle is being driven through the low range planetary gear set, the axial thrust on the sun gear unit assists in effecting engagement of the low range driveestablishing device. The open end of the drum forming the planetary gear input unit is normally spaced from a confronting wall of the housing so that lubricant may freely escape from the area within this drum. Under conditions in which the vehicle tends to drive the engine, the drum is moved towards this confronting wall to restrict the escape of lubricant from the area within the drum so that liquid accumulates within the drum and opposes rotation of the planet gears and carriers to thereby materially increase the braking effect on the vehicle.

The transmission includes a front pump driven by the vehicle engine and a rear pump driven by the transmission output shaft. The control valve for the transmission under normal operating conditions the liquid under pressure employed to operate the driveis supplied by the engine driven pump, and so that the liquid supplied by the output shaft driven pump is discharged through orifices to thereby provide a pressure varying with output shaft speed. This pressure is employed to govern a shift control valve which automatically shifts the transmission between low range and direct drive, while this shift control valve is also governed by liquid at a pressure varying with the position of the vehicle throttle so that shifts between low range and direct drive are controlled by both vehicle speed and accelerator pedal position. The control valve is also a relatively low value.

The control valve includes a manually controlled element which has a neutral position in which the transmission is maintained in neutral; a drive position in which the transmission automatically shifts between low range and direct drive in response to changes in vehicle speed and accelerator pedal position; a low position in which the transmission is maintained in low range; a reverse position; and a parking position in which the transmission is in neutral and the parking lock or brake is applied.

The control valve is also arranged so that under push start conditions, at which time the engine driven pump is inactive, the output shaft driven pump supplies liquid to operate the direct drive clutch, while this pump is controlled so as to build up relatively high pressure at low vehicle speeds to enable the vehicle engine to be rotated at low vehicle speeds.

The control valve is controlled by control levers con nected with the vehicle accelerator pedal and with a lever on the vehicle steering column. The control levers are mounted on the transmission housing, while the lever which is conneced to the lever on the steering column also controls the parking brake. The elements for operating the parking brake serve as a detent to designate the various operating positions of the manual control valve.

Referring to Figures la and 1b of the drawings I have illustrated my invention in connection with a motor vehicle provided with an engine 10, a portion of which is shown in Figures la and 12 of the drawings. The transmission provided by this invention includes an output shaft 12, which is adapted to have connected thereto the vehicle propeller shaft, a lock-up or direct drive clutch 13, a hydraulic torque converter 14, a planetary reduction and reverse gear unit 15, an engine driven pump 16, an output shaft driven pump brake 18, and control valving 19.

The transmission has a housing adapted to be secured to the flywheel housing of the engine and constructed of a plurality of cast iron sections. The housing includes a principal section which is secured to the engine, a rear section 21, a front pump section 22, and a bottom cover plate 23.

The cylinder block of the engine 10 has formed integral therewith an extension which surrounds the upper portion of the engine flywheel, and has secured thereto a stamped sheet metal member which surrounds the lower portion of the engine flywheel. The forward portion of the transmission housing section 20 is substantially cylindrical and has a substantially flat forward face which is secured against the confronting face on the engine cylinder block and on the member 25 to form an enclosure for the engine flywheel, the direct drive clutch 13, and the torque converter 14.

The engine flywheel 27 is in the form of a circular sheet metal stamping which is secured by a plurality of cap screws 28 against the flange on the rear end of the engine crankshaft 29. The member 27 is surrounded by an axially extending flange to which is secured the flywheel ring gear 30. The ring gear 30 is welded to the member 27 and projects a short distance from the rear face of the member 27.

The torque converter 14 is a four element device having a pump or driving element 31 having a flat subStan' tially cylindrical front face which is adapted to engage the rear face of the eter as to closely fit within the ring gear 30. The mem ber 31 has adjacent its front face a cylindrical bore in which there is mounted a ring 32 which is held in place in the bore in the member 31 by a lock ring 33 mounted in a groove in the member 31. periphery thereof a groove in which there is mounted packing 34 which engages the face of the bore in the member 31 to prevent the escape of liquid from the area within the member 31 through the joint between the ring 32 and the member 31. The ring 32 has on the axially outer face thereof an annular surface 38 which is adapt ed to engage the face of the flywheel member 27 and in which there are a plurality of circumferentially spaced threaded holes into which extend cap screws 35 which extend through aligned openings in the flywheel member 27 and serve to detachably secure the torque converter 14 and lock-up clutch 13 to the flywheel.

The various parts of the device are constructed and proportioned so that when they are assembled together, the annular surface 37 on the member 31 which engages the rear face of the flywheel member 27 is located in a plane a small distance, such as a few thousandths of an inch, to the left of the plane of the exposed surface 38 on the ring 32. Hence, when the cap screws 35 are tightened to draw the ring 32 towards the flywheel 27,

17, a parking flywheel 27, and is of such external diam- The ring 32 has in the the annular surface 37 on the torque converter member 31 is drawn firmly against the flywheel throughout the circumference of the member 31 and thereby provides an effective driving connection between the flywheel and the torque converter element 31.

A sheet metal diaphragm 40, which is surrounded by an axially extending flange 41, is mounted within the ring 32, and is secured thereto by welding, as indicated at 42. The welding extends throughout the circumference of the ring 42 and forms a liquid tight seal between the diaphragm 40 and the ring 32. The flange 41 is of subtantial axial width and is supported throughout its axial and circumferential extent by the ring 32, the edge of the flange 41 being approximately in the plane of the inner face of the ring 32.

The diaphragm 40 is stiffened by a circumferential rib and by a plurality of radially extending ribs pressed into the material forming the diaphragm, while the central portion of the diaphragm is offset towards the engine to provide clearance for the end of the output shaft 12, and for the hub of the piston mounted on the output shaft.

An annular pressure plate 43 is secured to the inner face of the ring 32 by a plurality of circumferentially spaced cap screws 44. The cap screws 44 are located in a circle of substantially the same diameter as the circle in which the cap screws 35 are located, but the cap screws 44 are spaced circumferentially so as to be located intermediate the cap screws 35.

The radially inner face of phragm 40 is machined or finished to provide a bore in which there is mounted a piston 45 which is in the form of a sheet metal disc having secured to the rear face thereof an annular wearing plate 46. The plate 46 may be secured to the piston 45 in any suitable manner, while a groove is formed in the periphery of the piston and has mounted therein packing 47 which serves to prevent the escape of liquid under pressure from the chamber 50 between the piston 45 and the diaphragm 40 The face of the piston 45 confronting the pressure plate 43 has therein a plurality of circumferentially spaced holes in which there are rigidly secured drive pins 51. which project from the face of the piston and are slidable in aligned holes in the pressure plate 43. The drive pins 51 insure that the piston 45 rotates with the pressure plate 43, but permit the piston 45 to move towards and away from the pressure plate.

The drive pins 51 are located a short distance radially inwardly of the periphery of the piston 45, and a clutch release spring 52 is located between the piston 45 and the pressure plate 43 in the area radially outwardly of the drive pins 51. The clutch release spring 52 is formed of flat spring wire bent into a circle and having a plurality of offsets therein so that the spring yieldingly urges the piston 45 away from the pressure plate 43, but permits the piston to move towards the pressure plate on an increase in the pressure of the liquid in the chamber 50.

The direct drive or lock-up clutch 13 includes a driven plate 53 of conventional construction and having a hub splined on the output shaft 12, while the peripheral portion of the driven plate 53 extends between the piston 45 and the pressure plate 43.

The piston 45 serves as the support for the forward end of the output shaft 12. The piston 45 has therein a centrally located opening, while a cylindrical huh member 54 surrounding this opening is secured on the face of the piston confronting the diaphragm 40. A bushing 55 is mounted in the opening in the piston 45 and in the hub member 54 and is adapted to receive the cylindrical end portion of the output shaft 12 so as to permit relative rotation between the output shaft 12 and the piston 45, and to also permit the piston 45 to move axially relative to the output shaft 12. The bushing 55 is of substantial axial extent and closely fits the surface on the output the flange 41 on the diashaft 12 so that there is very little leakage of liquid under pressure from the chamber 50 through the joint between the shaft 12 and the bushing.

The piston 45 provides an effective support for the for ward end of the output shaft 12 as the piston 45 is firmly supported within the diaphragm which is mounted within and rigidly attached to the ring 32, while the ring 32 is rigidly secured to the flywheel 27.

In addition, it will be seen that the direct drive clutch 13 is arranged so that the piston will not rotate relative to the flywheel, but is driven with the flywheel so that the piston is effective to transmit driving torque to the driven plate 53. The piston 45 is driven by the pin 51 from the pressure plate 43 which is secured to the ring 32, while the ring 32 is rigidly secured to the flywheel 27.

The direct drive clutch is also arranged so that it can be readily assembled and installed as a complete unit. The piston 45, the driven plate 53, and the release spring 52 may be placed in position in the bore in the diaphragm 40, after which the pressure plate 43 may be secured to the ring 32 which is permanently secured to the diaphragm 40. Thereafter, the entire assembly may be placed in position in the torque converter element 31, after which the lock ring 33 is installed to hold the assembly in place. Subsequently, the torque converter ele- V ment, together with the direct drive clutch assembly, may be secured to the flywheel 27 by installing the cap screws 35.

The direct drive clutch is arranged to minimize leakage from the chamber at the face of the piston of the direct drive clutch and from the torque converter. The diaphragm 40 which forms one wall of the chamber 50 at the face of the piston 45, and which also forms the cylinder in which the piston 45 is mounted, is a continuous member without openings therein so there is no possibility of the escape of liquid from the chamber 50 through the member 40 or through the joint between the member 40 and other elements of the clutch assembly. Furthermore, the member 40 is welded to the ring 32 and cooperates with the ring 32 to provide a leak-proof wall across the front of the torque converter element 31.

In addition, it will be seen that the piston 45 of the direct drive clutch is of relatively large diameter, this piston being somewhat larger in diameter than the driven plate 53. Furthermore, the entire area of the piston, except for the area of the small central hole for the end of the output shaft 12, is acted upon by liquid under pressure in the chamber 50. Because of the large effective area of the piston 45, the piston exerts on the driven plate 53 pressure sufllcient to transmit to the plate 53 the full torque of the engine when the pressure of the liquid in the chamber 50 is at a relatively low value, thereby reducing to the minimum the power required to drive the pump which supplies the liquid under pressure.

The front pump section 22 of the transmission housing is a substantially circular member which is detachably secured by a plurality of cap screws against a flat face on the housing section 20 at the rear of the flywheel and torque converter chamber. The housing section 22 has detachably secured thereto by means of cap screws 62 the ground sleeve member 63 of the torque converter. The ground sleeve member 63 has a relatively large diameter flange which is attached to the housing section 22, and has a relatively long cylindrical sleeve portion which extends through the central opening in the housing section 22 and projects into the torque converter chamber in the housing section 20.

The front pump section 22 and the ground sleeve member 63 cooperate to form a forward wall which extends transversely across the transmission housing and is provided with a substantially central opening through which the output shaft 12 extends.

The free end of the sleeve portion of the ground sleeve member 63 is externally splined and has mounted thereon the internally splined inner race member 64 of the overrunning brakes 65 and 66 associated with the stators 67 and 68 of the torque converter. Each of the stators 67 and 68 has associated therewith the outer race of the associated overrunning brake. The overrunning brakes 65 and 66 may be of any well-known construction and operate to permit the stators 67 and 68 to turn relative to the ground sleeve 63 in the same direction as the flywheel 27 and the torque converter driving element 31, and to lock the stators 67 and 68 to the ground sleeve 63 so as to prevent rotation of the stators in the direction opposite to that of the flywheel 27 and of the torque converter element 31.

A thrust washer 7B is mounted between the radially inner portion of the converter element 31 and the stator 68, and a similar thrust washer 71 is mounted between the radially inner portion of the converter driven element or turbine 72 and the stator 67, while a similar thrust washer 73 is mounted between the stators 67 and 68. The hub portions of the stators 67 and 68, which are engaged by the thrust washers, are slightly thicker than the axial length of the overrunning brakes so that the ovcrrunning brakes operate freely without interference by the thrust washers. The thrust washers 70 and 71 are held on the inner race member 64 by lock rings 74 and 75.

The elements 31. 6'7, 68 and 72 of the torque converter 14 are constructed of cast aluminum, and the driving and driven elements 31 and 72 are designed so that their radially inner portions extend radially inwardly far enough to overlie the thrust washers 70 and 71. The radially inner portions of the torque converter driving and driven elements have formed thereon fiat surfaces adapted to engage the thrust washers 79 and 71, respectively. The material of which the torque converter elements are constructed is a good bearing material and the arrangement illustrated and described makes unnecessary the provision of thrust surfaces of special material on the torque converter elements for the purpose.

The torque converter driven member 72 has secured thereto a hub 76 which has internal splines and is adapted to be received by the splined end on the sleeve portion of the drum 81 of the planetary unit 15. The hub 76 is formed of suitable material, such as steel, and has a flange which is secured to the body of the torque converter driven element 72 by rivets 77 located radially outwardly of the surface engaged by the thrust washer 71. A seal ring 78 is mounted in a groove in the splines on the member 80 and restricts flow of liquid from the area between the torque converter elements 31 and 72 to the area within the member 80. Hence, liquid under pressure supplied as hereinafter explained to the area outwardly of the ground sleeve 63 flows to the area between the hub portions of the torque converter members 31 and 72, and then flows radially outwardly over the faces of the thrust Washers '70, 71. and 73 to the radially outer portion of the torque converter.

The torque converter driving element 31 has secured thereto a hub member 83 having a sleeve portion of such diameter as to surround the ground sleeve 63 and to be spaced therefrom a short distance. The hub member 83 has a flange which is secured to the torque converter element 31 by a plurality of cap screws 84, while the sleeve portion of the hub member 83 is supported from the transmission housing section 22 by a bushing which also serves as a seal to prevent the escape of liquid from the torque converter supply passage through the joint between housing member 22 and the hub member 83. A gasket 82 is clamped between the members 31 and 83. As shown in Figure In of the drawings, the torque converter supply passage 348 leading from the control valve 19 is formed in the front pump section 22 and opens to the groove between the bushing 85 and the front pump 16, while the hub 83 has a plurality of openings therein so that liquid supplied through the passage may flow to the area within the hub 83 and thence to the area within the torque converter. A shaft sealing unit 86 of a conventional design is supported by the housing member 22 so as to surround the hub member 83 at a point intermediate the bushing 85 and the torque converter, while the area between the bushing 85 and the shaft seal 86 is connected by a drain passage 87 with the oil sump provided by the cover plate 23.

The front or engine driven pump 16 is of a well-known construction, and as shown in Figure la of the drawings, the pump comprises an internal gear 90 driven by a spur gear 91, the gears 90 and 91 being mounted in a chamber formed by the housing section 22 and the ground sleeve member 63, and being separated throughout a portion of their circumference by an arcuate baffie 92. The inlet port of the pump 16 is connected through a passage, not shown, formed in the transmission housing sections 20 and 22 with the sump or reservoir provided by the bottom cover plate 23, while the discharge or exhaust port, not shown, of the pump 16 is connected through another passage formed in the transmission housing sections 20 and 22 with the control valve 19. The spur gear 91 of the front pump 16 is mounted on the end of the sleeve portion of the hub member 83, the gear 91 and the hub member 83 having inter-engaging driving means so that the hub member 83 drives the gear 91. The hub member 83 is secured to the torque converter driving element 31 which is secured to the engine flywheel 27 so that the hub member 83 drives the gear 91 of the front pump 16 whenever the vehicle engine operates, and causes the gear 91 to turn at the same speed as the engine.

The rear or output shaft driven pump 17 is similar in construction to the pump 16 and has an internal gear 96 driven by a spur gear 97, the gears 96 and 97 being mounted in a chamber formed by plates and 98 which are secured to the transmission housing section 21. The i gears 96 and 97 are separated throughout a portion of their circumference by an arcuate baffle 99. The gear 97 is splined internally and is mounted on a splined portion of the output shaft 12 so that the gear 97 is driven by the output shaft and operates at the speed of the output shaft. The inlet port of the rear pump 17 is connected with the sump or reservoir through a passage, not shown, formed in the transmission housing section 21 and 20. Similarly, the exhaust or discharge port of the rear pump 17 is connected with the control valve 19 by another passage, not shown, formed in the transmission housing sections 21 and 22.

The gear 103 of the parking brake 18 is secured on the splined portion of the output shaft 12 directly in front of the rear pump 17, the gear axial movement on the shaft 12 by lock rings 104.

The output shaft 12 is supported from the transmission housing section 21 by a bushing 105 and by a ball bearing 106. The outer race of the ball bearing 106 is secured between a lock ring 107 and a shoulder while the inner race of the ball bearing 106 is secured between lock rings 108 on the shaft 12. Hence, axial movement of the ball bearing 106 relative to the housing section 21 is prevented, and axial movement of the shaft 12 relative to the ball bearing 106 is prevented, so the ball bearing 106 serves to prevent axial movement of the shaft 12. The shaft 12 has secured thereon the gear 110 which is employed in the usual manner to drive the vehicle speedometer.

The planetary unit 15 of the transmission includes the drum 81, a front planet carrier assembly indicated generally by the reference numeral 112, a rear planet carrier assembly indicated generally by the reference numeral 113, a sun gear unit 114, a low speed or sun gear drive establishing or control device indicated genorally by the reference numeral 115, and a reverse or rear planet carrier control device indicated generally by the reference numeral 116.

As previously explained, the drum 81 has a sleeve portion 80, this sleeve portion being of such diameter and 103 being secured against on the housing,

length as to extend through the ground sleeve 63. The forward end of the sleeve portion 80 of the drum 81 has secured on the splined portion thereof the torque converter output or driven element 72 so that the drum 81 is driven from the engine through the torque converter. The sleeve portion 80 of the drum 81 surrounds the output shaft 12, the inner diameter of the sleeve portion 80 being such that the surface of the bore in the sleeve portion is spaced at short distance from the surface of the output shaft. The output shaft 12 has thereon a relatively long shoulder 118 which is of such diameter as to closely fit within the bore in the sleeve 80 and thereby restrict the escape of lubricant from the torque converter chamber through the area within the sleeve 80.

The sleeve portion 80 of the drum 81 is supported from the ground sleeve 63 by spaced bushings 120, while a thrust washer 121 is mounted between the flange on the ground sleeve 63 and the forward face of the drum 81.

The drum or input unit 81 has formed on the inner face thereof adjacent the closed end of the drum, the teeth of a first ring or orbit gear 123, and also has formed on the inner face thereof adjacent the open end of the drum, the teeth of a second ring or orbit gear 124. The gear 123 is somewhat smaller in diameter than the gear 124 so that the tips of the teeth of the gear 124 are located radially outwardly on the bottoms of the spaces between the teeth of the gear 123.

The gears 123 and 124 are helical gears, the teeth of each of these gears being arranged so that the end of each tooth toward the closed end of the drum 81 is rotatively in advance of the opposite end of the tooth, assuming that the drum 81 rotates in the customary direction, that is in the clockwise direction as viewed from the end towards the engine.

The drum 81 rotates in a substantially cylindrical chamber formed in the transmission housing section 20, the various parts being arranged and proportioned so that when the drum 81 presses the thrust washer 121 firmly against the ground sleeve member 63, the end face of the wall of the drum at the open end of the drum is spaced a short distance, such as one-sixteenth of an inch, from an annular surface 125 formed on the housing section 20. The chamber in which the drum 81 is mounted is open to the sump through holes, not shown, in the bottom wall of the chamber so that oil escaping from the drum 81 may freely flow from this chamber to the sump.

The front planet carrier assembly 112 comprises a carrier member having an internally spliced hub portion mounted on counterpart splines on the output shaft 12. The member 130 has adjacent its periphery spaced annular portions which are joined at intervals by integral web portions, the forward annular portion being integral with the hub portion of the member. The annular peripheral portions of the member 130 have therein three sets of aligned openings at points uniformly spaced apart circumferentially of the member. Each set of openings has secured therein a pin 131. on which there is mounted a planet gear 132, each planet gear being supported by a suitable needle roller bearing. Thrust washers 133 are located at the ends of each planet gear, while each of the pins 131 may be held in position by a shoulder on one end of the pin and by heading over the other end of the pin. As is clearly shown in Figure in of the drawings. the planet gears 132 mesh with the ring gear 123, and also with a sun gear formed on the sun gear unit 11.4.

The hub portion of the carrier member 130 extends between or within the planet gears 132 substantially the entire axial extent of the planet gears and supports the planet gears 132 from the shaft 12 in the plane of the ring gear 123 so that the planet gears 132 are accurately held in alignment with the ring gear 123 and will run quietly.

A thrust washer 134 is located between the carrier member 130 and the drum 81, while a lock ring 137 limits 13 movement of the carrier member 130 on the output shaft The sun gear unit 114 is a .ubular member surrounding the output shaft 12, the internal diameter of the sun gear unit 114 being slightly larger than the external diameter of the output shaft 12 throughout most of the length of the sun gear unit. The internal diameter of the forward end of the sun gear unit 114 is larger than the internal diameter of the remainder of the sun gear unit and has therein a bushing 135 which operates on the outer diameter of the hub portion of the carrier member 130 of the front planet carrier assembly 112.

The forward end of the sun gear unit 114 is of relatively large diameter and has formed on the exterior thereof the helical sun gear 136, the teeth of which mesh with the planet gears 132 associated with the front planet carrier assembly 112. As the forward end of the sun gear unit 114 is supported from the hub of the carrier member 130 by the bushing 135, which is located radially inwardly of the sun gear 136 and extends substantially the entire axial length of the sun gear 136, the gear 136 is rigidly and accurately supported relative to the planet gears 132 and these gears operate quietly. The sun gear 136 is a helical gear and the gear teeth are arranged so that the end of each tooth at the forward or left-hand end of the gear is rotatively in advance of the opposite end of the tooth, that is so that the gear 136 has a left-hand helix angle.

The rearward end of the sun gear unit 114 extends through and is supported in a bore in the central portion of the diaphragm member 140 which is rigidly supported from the transmission housing section 20, and is in effect a wall extending transversely across the transmission housing. The diaphragm member 140 is constructed of material, such as aluminum, which provides a good bearing surface and the central portion of the member 140 is of substantial axial extent so that the rear end of the sun gear unit 114 is rigidly supported.

The rear planet carrier assembly 113 comprises a carrier member 141 having spaced annular portions connected at intervals by integral web sections and having therein a plurality of sets of aligned holes in which there are mounted pins 142. Each of the pins 142 has mounted thereon a planet gear 143 which is supported on the pin by a suitable needle roller bearing. Each of the pins 142 is held in position in the carrier member 141 by heading over the projecting ends of the pin, while thrust washers 144 are mounted between the ends of each planet gear 143 and the faces of the sides of the carrier member 141.

The planet gears 143 are somewhat larger in diameter than the planet gears 132 and mesh with the ring gear 124 on the drum 81 and also with a sun gear formed on the sun gear unit 114.

The forward portion of the carrier member 141 has a hub portion having therein a bore in which there is mounted a bushing 145 which runs on a bearing surface formed on the sun gear unit 114. This bearing surface on the sun gear unit 114 is of smaller diameter than the sun gear 136, but of larger diameter than the remainder of the sun gear unit.

The rear portion of the carrier member 141 has a hub portion having therein a bore in which there is mounted a bushing 146 which runs on a bearing surface formed on the sun gear unit 114, while the sun gear unit 114 has formed thereon between the bearing surfaces engaged by the bushings 145 and 146 the teeth of the sun gear 147 which meshes with the planet gears 143 of the rear planet carrier assembly 113. The sun gear 147 has helical teeth, each of which is arranged so that the end thereof adjacent the sun gear 136 is rotatively in arrears of the opposite end of the tooth. It will be seen that the second carrier member 141 is supported from the sun gear unit 114 on opposite sides of the sun gear 147 with the result that the planet gears 143 are rigidly and accurately supported and will operate quietly.

A thrust washer 148 is mounted on the sun gear um't 114 between the forward end face of the carrier member 141 and a shoulder at the rear face of the sun gear 136.

The elements of the low speed or sun gear control device 115, and of the reverse or rear planet carrier control device 116, are mounted in a bore in the transmission housing section 20, this bore being substantially conccntric with the sun gear unit 114 and the output shaft 12. The principal portion of this bore is cylindrical, but the bore has at the forward end a conical portion having a conical surface 150, the larger end of which is towards the rear of the transmission housing, the conical surface 150 being separated from the remainder of the bore by a narrow shoulder 151.

As is best shown in Figmres 3 and 4 of the drawings, the transmission housing section 20 has drilled therein a hole which extends into the shoulder 151, the center of this hole being located a short distance radially outwardly of the face of the cylindrical surface of the bore in the housing section 21 so that the hole forms a groove in the wall of this bore. This hole is of relatively small diameter so that the hole does not extend into the conical surface 150. A locating pin 152 is mounted in the hole in the housing section and is of such length as to extend substantially to the joint between sections 20 and 21, while the pin 152 is of such size that a portion of the pin is located radially inwardly of the face of the cylindrical bore in the housing section 20.

The elements of the low speed or sun gear control device include a cup 155 of such external diameter as to closely fit the cylindrical bore in the housing section 29, this cup having a conical inner surface 156, the cup being mounted in the housing 20 so that the end of the surface 156 of larger diameter is towards the front of the transmission.

The diaphragm is mounted in the bore in the housing section 20 in front of the cup 155, while a thrust diaphragm 157 is located in front of the diaphragm 140. The thrust diaphragm 157 is in the form of a Belleville washer and engages the shoulder 151, while a spacing ring 158 is located between the diaphragm 140 and the diaphragm 157. The various parts of the equipment are proportioned so that the cup projects from the rear face of the housing section 20 a short distance and is received by a bore in the front face of the housing section 2.1 so that the cup 155 serves to align the tarnsmission housing sections 20 and 21. A sealing ring 159 is located between the cup 155 and the housing section 21, and the various parts are proportioned so that when the housing sections 20 and 21 are secured together, the thrust diaphragm 157 is rigidly held against the shoulder 151. Each of the diaphragms 140 and 157, as well as the cup 155 and the spacing ring 158, has a notch or recess in its periphery which is adapted to receive the portion of the pin 152 which extends within the cylindrical bore in housing section 20 so that the pin 152 prevents rotation of the diaphragms 140 and 157 and the cup 155 in the housing. The pin 152 also serves to accurately position the diaphragm 140 rotatively relative to the housing section 2! so that passages in the diaphragm 140 register with passages in the housing section 28. The area at the forward face of the diaphragm 140 is vented to the sump through an opening 160.

The rear end of the sun gear unit 114 projects through the diaphragm 140. The projecting end of the sun gear unit 114 is splined and has mounted thereon the cone 162 of the sun gear or low range control device 115. The cone 162 comprises an internally splined hub portion to which is rigidly secured a stamped sheet metal member having a conical peripheral flange, the outer surface of which is of substantially the same size and shape as the surface 156 on the cup 155 so that the cone 162 will engage the surface 156 on the cup 155 throughout the circumference of the cup 155 and also throughout the entire axial extent of the surface 156. As herein-

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